The present disclosure relates to a card socket for an electronic device and, more particularly, to a card socket for an electronic device having an improved card insertion confirmation structure, wherein the structure of a card insertion confirmation terminal, which senses full insertion of a card or a tray into a card socket, is changed so as to improve stability of insertion of the card or the tray.

A dual subscriber identity module (SIM) card connector is provided that includes a lower connector housing portion having a bottom surface and an upper connector housing portion having a top surface. The upper connector housing portion is coupled to the lower connector housing portion to define an opening for a receiving space between the upper and lower connector housing portions. The opening and receiving space are sized and shaped to slidably receive a SIM card tray. The connector includes a first plurality of electrical contacts disposed at the bottom surface of the lower connector housing portion and configured to make contact with a first SIM card disposed on a first side of the SIM card tray when the tray is received within the receiving space. The connector includes a second plurality of electrical contacts disposed at the top surface of the upper connector housing portion and configured to make contact with a second SIM card disposed on a second side of the SIM card tray opposite the first side when the tray is received within the receiving space.

A chip card securing assembly detachably received in a body of an electronic device, the chip card securing assembly includes a tray and a connector. The tray includes a receiving portion and a holding portion. The receiving portion includes a first end and a second end, the second end defines a receive slot. The holding portion extends from the first end and configured to hold a chip card. The connector is received in the receiving portion and exposed from the receive slot. An electronic device applying the chip card securing assembly is also provided.

A card connector includes: an insulative body; plural contacts secured to the insulative body; and an operating mechanism including a latch moveable relative to the insulative body and an actuator coupled to the latch, wherein: the actuator includes a pair of terminals, a slider coupled to one of the pair of terminals, and a shape memory alloy wire coupled between the other terminal and the slider; and the slider is operable by the shape memory alloy wire to move the latch from a card-locking position to a card-unlocking position.

An apparatus is described. In an embodiment, the apparatus comprises a housing; a tray; an ejector; a push member having two positions, the push member is configured to receive an external force for moving the push member and to operate the ejector to eject the tray to an ejected open position when the push member is moved to a second position and to maintain in the second position; and a switch comprising two electric position; the switch is configured to switch to a first electric position when receiving the external force, and the push member is configured to maintain the switch in the first electric position when the push member is moved to the second position causing the tray to eject; when the tray is returned to a retracted closed position, the push member is moved to a first position causing the switch to switch to a second electric position.

Disclosed is an electronic device card socket capable of preventing the breakage of a hinge and preventing noise (static), which is caused by movement between respective parts, in the tray-type card socket. The electronic device card socket according to one embodiment of the present disclosure includes a socket housing, a socket cover, an ejecting hinge part, and ejecting bar, and a movement preventing means. The socket housing has a space into which a tray equipped with a card is inserted. The socket cover is provided at the upper part of the socket housing. The ejecting hinge part is rotatably hinge-coupled to one side of the socket housing so as to push the tray forward and separate the same when the ejecting hinge part rotates. The ejecting bar is provided at the other side of the socket housing so as to move in the forward and backward directions, and is connected to the ejecting hinge part so as to rotate the ejecting hinge part when the ejecting bar moves forward and backward. The movement preventing means prevents the movement of the ejecting hinge part and/or the ejecting bar when vibration is generated between the parts of the card socket.

A card connector and a method of manufacturing the card connector are provided. In one embodiment, the card connector comprises a base; a shielding sleeve connected to the base, the base and the shielding sleeve defining a first direction for inserting a card and a second direction opposite to the first direction for extracting the card; and a shielding tray for receiving the card, the shielding tray being movable relative to the base in the first direction or the second direction, wherein the card connector is operable to electrically connect to the card if the card reaches a position of insertion along the first direction. The card connector is capable of facilitating the push-in and pull-out operations of a card by a user, while minimizing an exposed area of the card so as to improve the shielding performance.

A handset is provided. The handset has a housing, a card connector, and a card tray, the card tray is configured to be attached to or detached from the card connector. The housing has a pinhole, the card tray is detached from the card connector after an pin passes through the pinhole; a sealing kit is inside the handset, the sealing kit has a gap, the gap's position on the sealing kit corresponds to the pinhole's position; when the pin passes through the pinhole and the gap on the sealing kit from outside of the handset, the gap on the sealing kit is opened; when the pin is unplugged from the sealing kit, the gap on the sealing kit is closed. When the pin is unplugged from the sealing kit, the opening on the sealing kit is closed. Therefore, the sealing kit is used to implement a water-proof effect.

Disclosed are a card holder and an electronic device. The electronic device includes: a device body provided with a card holder slot and a card holder installed in the card holder slot, where a limiting rib is arranged in the card holder slot. The card holder includes: a card holder body, a card holder cap arranged on the card holder body and force application pieces for applying a force to the card holder cap towards the card holder body. The card holder cap is movably connected with the card holder body. The force application pieces enable the card holder cap to keep close to the card holder body. A limiting surface is arranged on the card holder cap and is abutted against the limiting rib so that an outer wall surface of a side wall of the card holder cap is flush with a surface of the device body.

Electronic devices are provided with ejectable component assemblies. Each ejectable component assembly may include a tray that can be loaded with one or more types of removable module, such as a mini-SIM card and a micro-SIM card, and inserted into the device. Each assembly may also include a base coupled to a circuit board for electrically coupling with the removable module, a cage for biasing the module down against the base, and a guide for retaining the module at a functional insertion position within the device.